Final Grades
Geometry
|
While I have entered the semester final, I am still in the process of entering other grades, extra credit, etc. I will make another post here when I have finished and grades have been finalized.
Making Your 3-D Object
Geometry
|
As you assemble your 3-D object by cutting out the net, you might be puzzling over how to make a good base that looks like a regular polygon (especially if you chose to use a base with more than 4 sides). A protractor is your friend here. You have learned earlier in the year how to calculate a single interior angle of a regular polygon, so put that knowledge to use and find the measure of one interior angle of your base.
Make sure to use a material that is more sturdy than paper for your physical object. Please attempt to make the spike as sturdy as possible. How else will I be able to impale next year's students upon the door? Just kidding, but do make it stable so it can stand the test of time!
If you're not making a cone, then all of your lines should be drawn with a straight edge. If you are making a cone, getting a good looking net can be a little difficult. You can use the first way here to make the spike without spending too much time on the perfect net.
For inspiration, here's one of the top impalers of all time*:
*edited for appropriateness, original credit to Jake Likes Onions
Make sure to use a material that is more sturdy than paper for your physical object. Please attempt to make the spike as sturdy as possible. How else will I be able to impale next year's students upon the door? Just kidding, but do make it stable so it can stand the test of time!
If you're not making a cone, then all of your lines should be drawn with a straight edge. If you are making a cone, getting a good looking net can be a little difficult. You can use the first way here to make the spike without spending too much time on the perfect net.
For inspiration, here's one of the top impalers of all time*:
Semester Review Solutions
Geometry
|
For the Ch 7 & Ch 8 Review - definitely give problems 12,13,18-21 from Ch 7 and 10-27 from Ch 8 a try. You can find answers here. Remember, we did no do sections 7.5, 7.6, 8.5 or 8.6 so skip those problems!
Here are the solutions to the semester practice final! Below are a few corrections to those solutions.
Here are the solutions to the semester practice final! Below are a few corrections to those solutions.
#6 the answer should be D
#17 the question should read" What is the area of an equilateral triangle with side length 10?"
#23 the answer should be C
On test day, do not have your phone out at any point in time, from the moment you enter the room until you leave. I recommend leaving it in your locker. Your calculator memory will be cleared. When this happens, your calculator will reset into Radian Mode. Make sure you change it back to Degree Mode.
If you do not turn in your book during finals, you must turn it in on Tuesday. You can find me in room 351 after school and can turn it into me there if you are missing class to make up a final.
Hall Passes
I will be collecting your hall passes for the semester before the final exam starts. Make sure you have yours in class to turn in! No passes will be issued to get it, no late passes will be accepted. You will also need to turn in your book before the final exam starts.
Surface Area Flip Book & Volume of Composite Solids
Geometry
|
Take a look at the solutions to the Volume of Composite Solids.
As requested, here is a list of answers to the Surface Area portion of the flip book.
9) 846 sq mm
10) 662.4 sq ft
11) 352.5 sq cm
12) 1583.4 sq km
13) 138 sq m
14) 384 sq yd
15) 225.5 sq in
16) 648 sq ft
17) 197.3 sq m
18) 1,330 sq km
As requested, here is a list of answers to the Surface Area portion of the flip book.
9) 846 sq mm
10) 662.4 sq ft
11) 352.5 sq cm
12) 1583.4 sq km
13) 138 sq m
14) 384 sq yd
15) 225.5 sq in
16) 648 sq ft
17) 197.3 sq m
18) 1,330 sq km
First Spikey Door Project Deadline
Geometry
|
The first project deadline looms close (Tuesday, June 13th), so I wanted to clarify what I am looking for. You need to show me your scaled drawing (the 3D version and the net). You don't need your surface area or volume calculations yet. However, you will want to make sure your surface area and volume fall within the specified parameters . Though you should be able to calculate the surface area of your spike, you can use the following links to help you calculate the volume of your solid.
Remember, you may not use these measurements for your own spike!
Don't forget to print off a copy of the rubric to submit with your project! Grab it here!
Below, you can see an example of some sample work. This work is fairly neat and well organized. They have drawn the net and shown the calculations for surface area broken down into lateral surface area (LSA), base area, and then total surface area (TSA). Make sure to leave room for your volume calculations and . You can also see the scaled 3-D drawing using perspective and labels.
Remember, you may not use these measurements for your own spike!
Don't forget to print off a copy of the rubric to submit with your project! Grab it here!
Semester Review
Geometry
|
Here is a link to a practice final from a few years ago. The questions that you should focus on are 1-8, 14-46.
Geometry Extra Credit Opportunity
Geometry
|
Project Spikey Door – Building a 3-D Object
In this project, you will build and decorate a 3-D object of your own design, and you will calculate the surface area and volume of this object. As part of the write-up, you will show step-by-step how you arrived at your calculations.
Design
- You’ll design either a cone, or a pyramid with a regular-polygon base. A square base is fine, but a base with >4 sides is worth a small bonus.
- As a general guideline for size, the base of your object should have an area between 150 and 250 square centimeters. Overall, your object should have a volume between 750 and 2000 cubic centimeters.
- You may collaborate with classmates but everyone must submit their OWN object, drawings, and calculations.
- By the end of class Tuesday, June 13th, you should have a scale drawing of a net for your object, with all the important dimensions labeled. For example: radius, base edge length, slant height, lateral edge length.
- You may want to design, cut out, and test several prototypes before settling on your design.
Building
- You will need to build your object. Consider using poster-board or something thicker than regular paper and decorating your object.
- By the end of the day on Monday, June 19th, you should have your labeled scale drawing of the net, and your 3d object. Leave it in class and make sure your name is written on the bottom.
Calculations and Presentation
- You will need to draw a 3-dimensional picture of your object. All important lengths must be labeled in the diagram. For example: radius, height, base edge length, slant height, lateral edge length.
- You will be calculating the volume, lateral surface area, and total surface area of your object. For full credit, show all formulas used, substitutions, and label results with appropriate units of measure. You will need to submit a neat sheet of calculations, complete with all work and explanations in your own words. The clarity, accuracy, and organization of your math work will make up the majority of your project grade.
- Every submitted object must be appropriately decorated and attractive.
Grading Rubric
Scoring Name: _______________________
Your Score
|
Max Score
|
|
1. Turn in this page, neatly stapled with the two required drawings and two required calculations.
|
1
|
|
2. Your design is a
|
6
|
|
3. Your design follows the size guidelines.
|
3
|
|
4. Scaled drawing of net is turned in, accurate, and neatly labeled.
|
10
|
|
5. 3-d object is turned-in, neatly constructed, and attractively decorated
|
12
|
|
6. Drawing of 3-d object is turned-in, neat, and accurately labeled.
|
8
|
|
7. Volume calculation is submitted, including all formulas used, substitutions, and results labeled with appropriate units of measure.
|
10
|
|
8. Total surface area calculation is submitted, including all formulas used, substitutions, and results labeled with appropriate units of measure.
|
10
|
|
Final Score
|
60
|
For every 6 points you gain on the rubric, you will earn a point of extra credit on the Ch 9-10 exam.
Ch 9 & 10.1 Alternative Assessment
Geometry
|
Please fill out this form to reserve a time to take the Ch 9 & 10.1 Alternative Assessment. You will receive an email confirming your reservation time and the location. If you are unable to make any of these times, please email me so we can discuss. If you choose to take the Alternative Assessment, it will replace your Ch 9 & 10.1 Quiz grade.
The topics covered are:
The topics covered are:
- Area of 2-D figures (majority of quiz)
- Triangles, rectangles, parallelograms, trapezoids, circles, regular polygons
- Identifying Solids
- Cross-sections of Solids
- Nets
The form will close at 8 PM and a confirmation of your time slot will be sent out shortly thereafter.
Discrete Semester 2 Review
Discrete
|
I have compiled a review for you to work on, which can be found here.
The final exam on Tuesday will consist of ~30 questions.
The final exam on Tuesday will consist of ~30 questions.
Carnivale Absence Reminder
Discrete
|
If you were absent on the day of the Carnivale, you will need to submit a scenario analysis to me.
Scenario Analysis (for those that are absent on game day) – Type up a description of 3 scenarios (one where you lose, one where you win, and one where you break even) and analyze those different scenarios.You may submit your analysis to me electronically via a separate google document. Scenario Analysis documents are due on Monday, 7:59 AM.
Powerpoint for Surface Area
Geometry
|
As requested, here is a copy of the powerpoint we used today. We covered slides 1-9.
Subscribe to:
Posts (Atom)
